Sound waves : propagation, frequencies, and effects /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Abagnali, Vitale, Fabbri, Giampaolo
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, ©2012.
Colección:Acoustics research and technology
Temas:
Sound-waves.
Ondes sonores.
SCIENCE > Acoustics & Sound.
Sound-waves
Acceso en línea:Texto completo

MARC

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245 0 0 |a Sound waves :  |b propagation, frequencies, and effects /  |c Vitale Abagnali and Giampaolo Fabbri, editors. 
260 |a New York :  |b Nova Science Publishers,  |c ©2012. 
300 |a 1 online resource (x, 239 pages) :  |b illustrations 
336 |a text  |b txt  |2 rdacontent 
337 |a computer  |b c  |2 rdamedia 
338 |a online resource  |b cr  |2 rdacarrier 
347 |a data file  |2 rda 
490 0 |a Acoustics research and technology 
504 |a Includes bibliographical references and index. 
588 0 |a Print version record. 
505 0 |a Intro -- SOUND WAVES PROPAGATION, FREQUENCIES AND EFFECTS -- SOUND WAVES PROPAGATION, FREQUENCIES AND EFFECTS -- CONTENTS -- PREFACE -- TIME RESOLVED VISUALIZATION AND ANALYSIS ON A SINGLE SHORT ACOUSTIC WAVE GENERATION, PROPAGATION AND INTERACTION -- Abstract -- 1. INTRODUCTION -- 2. EXPERIMENT AND NUMERICAL SIMULATIONS -- A. Time Resolved Acoustic Wave Imaging: Laser flash Schlieren photography -- B. Numerical simulations -- 3. RESULTS AND DISCUSSIONS -- 3.1. Laser Induced Thermoelastic Acoustic Wave Generation in Water -- 3.2. Laser Induced Acoustic Waves in Various External Channels -- A. Single Block -- B. Double Block (A Channel) -- D. 33º Tilted Single Block -- E. Concave Cylindrical Lens (Acoustic Wave Focusing) -- F. Viscosity Effect (Propagation Velocity and Attenuation) -- 3.3. Laser Induced Acoustic waves in Various Internal Channels -- A. Sudden Expansion and Contraction Channels -- B. Bifurcating Channels: T Branched and Y Branched Channels -- C. Gradual Contraction Wall Channels: Linear Contraction and Parabolic Contraction Wall Channel -- D. Trapped Acoustic Wave in a Cylinder -- CONCLUSION -- ACKNOWLEDGMENT -- REFERENCES -- ELASTIC VIBRATIONS OF AN ISOTROPIC PLATE WITH LASER-INDUCED ATOMIC DEFECTS -- Abstract -- 1. INTRODUCTION -- 2. BASIC EQUATIONS -- 3. FORMULATION OF THE PROBLEM -- 4. BASIC SOLUTIONS -- 5. DISPERSION EQUATIONS IF THE WAVE IN AN INFINITIVE MEDIUM -- 6. DISPERSION EQUATION OF THE PLANE WAVE IN PLATES -- 7. LIMITING FORMS OF THE FREQUENCY EQUATIONS -- CONCLUSION -- REFERENCES -- ELECTROACOUSTIC MONITORING OF COLLOIDAL STATE CHANGES IN SODIUM CASEINATE STABILIZED OIL IN WATER EMULSIONS -- Abstract -- 1. INTRODUCTION -- 1.1. Fundamentals of electroacoustics -- 1.2. Sodium Caseinate Stabilized Emulsions and Challenges in Formulation -- 2. MATERIALS AND METHODS -- 2.1. Emulsion Preparation. 
505 8 |a 2.2. Determination of Size Distribution Using Light Scattering -- 2.3. Acoustic and Electroacoustic Spectrometer -- 3. RESULTS AND DISCUSSION -- 3.1. Electroacoustic Properties of Sodium Caseinate Emulsions as a Function of Concentration -- 3.2. Destabilization of emulsion droplets: acidification -- 3.3. Interactions between the Oil Droplets and a Charged Polymer: High Methoxyl Pectin (HMP) -- 3.4. Destabilization of the oil droplets due to depletion flocculation -- CONCLUSION -- REFERENCES -- NUMERICAL ASSESSMENT OF MULTI-CHAMBER MUFFLERS HYBRIDIZED WITH MULTIPLE PERFORATED INTRUDING TUBES USING GA METHOD -- Abstract -- 1. NOMENCLATURE -- 2. INTRODUCTION -- 3. THEORETICAL BACKGROUND -- 3.1. Four-pole Transfer Matrices -- 3.2. Overall Sound Power Level -- 3.3. Objective Function -- (A) STL maximization for a tone (f) noise -- (B) SWL minimization for a broadband noise -- 4. MODEL CHECK -- 5. CASE STUDIES -- 6. GENETIC ALGORITHM -- 7. RESULTS AND DISCUSSION -- 7.1. Results -- 7.1.1. Pure Tone Noise Optimization -- 7.1.2. Broadband Noise Optimization -- 7.2. Discussion -- CONCLUSION -- ACKNOWLEDGMENTS -- APPENDIX A -- Transfer Matrix of an Expanded Perforated Intruding Tube -- APPENDIX B -- Transfer Matrix of a Contracted Perforated Intruding Tube -- REFERENCE -- THE SOUND VELOCITY INTO TURBULENT FLOW -- Abstract -- INTRODUCTION -- CONSERVATION EQUATIONS FOR TURBULENT FLOW -- THE SOUND VELOCITY INTO TURBULENT FLOW -- CONCLUSION -- REFERENCES -- INFRASOUND GENERATION BY TURBULENT CONVECTION -- Abstract -- 1. Introduction -- 2. GeneralCharacteristicsofAtmosphericInfrasound -- 3. HistoryofInfrasoundStudies -- 4. InstrumentationandProcessingTechniques -- 5. InfrasoundfromStrongConvectiveStorms -- 6. Lighthill'sAcousticAnalogy -- 6.1. MathematicalFormulation -- 6.2. Lighthill'sQuadrupoleSource -- 7. InfrasoundGenerationbyTornadicStorms -- 7.1. Generalformalism. 
505 8 |a 7.2. AnalysisofDifferentSources -- 7.3. Applicationtoinfrasoundgenerationbytornadicconvectivestorms -- 7.4. Spectrumofinfrasound -- 7.5. Infrasoundcorrelationwithtornadoes -- 8. Conclusion -- References -- ON THE NEUTRONS DIFFRACTION IN A CRYSTAL UNDER THE INFLUENCE OF A SOUND WAVE -- Abstract -- 1. Introduction -- 2. Neutron-CrystalInteractionPotentialUndertheInfluenceofaSoundWave -- 3.S-MatrixTheory -- 4. DiffractionProbability -- 5. AnalysisoftheResults:DiffractionConditionandtheDebye-WallerFactor -- 5.1. Diffractioncondition -- 5.1.1. Influenceofatravelingsoundwave -- 5.1.2. Influenceofastandingsoundwave -- 5.2. TheDebye-Wallerfactor -- Acknowledgments -- References -- ON THE TRANSFORMATION OF SOUND WAVES IN NON-STATIONARY MEDIA -- Abstract -- 1. Introduction -- 2. BasicEquations -- 2.1. Basicequationsoffluiddynamics -- 2.2. Soundwaves -- 3. TransformationofSoundWavesinNon-StationaryMediawithAbruptlyChangingParameters -- 4. TransformationofSoundWavesinNon-StationaryMediawithSmoothlyChangingParameters -- 5. Conclusion -- Acknowledgments -- References -- TOMOGRAPHY TECHNIQUE TO SYNOPTIC MAPPING OF OCEAN MESO-SCALE FIELD -- ABSTRACT -- INTRODUCTION -- 1. MATHEMATICAL FORMULATION AND MODELING -- 1.1. Ocean Model -- Oceanic Variability and its Effect on Acoustics -- 1.1a. Synoptic (Meso-Scale) Eddies -- 1.1b. Large Scale Currents and Frontal Zones -- 1.2a. Internal Waves -- 1.2b. Vertical Fine Structure -- 1.2c. Small Scale Turbulence -- 1.3. Forward Problem -- 1.4. Stochastic Inverse -- 2. DATA AND SIMULATION -- 3. RESULTS AND DISCUSSION -- 3.1. Sound Velocity Field -- 3.2. EOF Modes -- 3.3. Data Resolution Matrix)(TppUU -- 3.4. Model Resolution Matrix)(TppVV -- 3.5. Eigen Rays -- 3.6. Ray Arrival Pattern -- 3.7. Acoustic Intensity -- 3.8. Inversion -- Building the Estimates. 
505 8 |a 4. OBJECTIVE MAPPING OF TEMPERATURE FIELD BY STOCHASTIC INVERSE METHOD USING ACOUSTIC TOMOGRAPHY EXPERIMENTAL DATA OF EASTERN ARABIAN SEA -- ACKNOWLEDGMENTS -- APPENDIX A -- A1. Elements of Ocean Acoustics -- A1.1. Wave Equation -- A1.2. Ray Theory -- APPENDIX-B -- B1. Computational Procedures: -- B2. Closeness Ratio -- REFERENCES -- INDEX. 
590 |a eBooks on EBSCOhost  |b EBSCO eBook Subscription Academic Collection - Worldwide 
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650 0 |a Sound-waves. 
650 6 |a Ondes sonores. 
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700 1 |a Abagnali, Vitale. 
700 1 |a Fabbri, Giampaolo. 
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